Impact of dietary manganese on experimental colitis in mice

Choi, Eun‐Kyung; Aring, Luisa; Das, Nupur K.; Solanki, Sumeet; Inohara, Naohiro; Iwase, Shigeki; Samuelson, Linda C.; Shah, Yatrik M.; Seo, Young Ah

doi:10.1096/fj.201902396r

Cited by 40 publications

(45 citation statements)

References 49 publications

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“…Consistent with our finding that Mn deficiency is sufficient to disrupt intestinal barrier function (Fig. 3), an Mn-deficient diet renders mice susceptible to epithelial injury in the DSS model, which is characterized by increased inflammatory cytokines and exacerbated histopathology in the colon (45).…”

Section: The Development Of Mature Isolated Lymphoid Follicles Driven Bysupporting

confidence: 91%

A missense variant in SLC39A8 confers risk for Crohn’s disease by disrupting manganese homeostasis and intestinal barrier integrity

Nakata

Creasey

Kadoki

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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Common genetic variants interact with environmental factors to impact risk of heritable diseases. A notable example of this is a single-nucleotide variant in the Solute Carrier Family 39 Member 8 (SLC39A8)geneencoding the missense variant A391T, which is associated with a variety of traits ranging from Parkinson’s disease and neuropsychiatric disease to cardiovascular and metabolic diseases and Crohn’s disease. The remarkable extent of pleiotropy exhibited bySLC39A8A391T raises key questions regarding how a single coding variant can contribute to this diversity of clinical outcomes and what is the mechanistic basis for this pleiotropy. Here, we generate a murine model for theSlc39a8A391T allele and demonstrate that these mice exhibit Mn deficiency in the colon associated with impaired intestinal barrier function and epithelial glycocalyx disruption. Consequently,Slc39a8A391T mice exhibit increased sensitivity to epithelial injury and pathological inflammation in the colon. Taken together, our results link a genetic variant with a dietary trace element to shed light on a tissue-specific mechanism of disease risk based on impaired intestinal barrier integrity.

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Section: The Development Of Mature Isolated Lymphoid Follicles Driven Bysupporting

confidence: 91%

A missense variant in SLC39A8 confers risk for Crohn’s disease by disrupting manganese homeostasis and intestinal barrier integrity

Nakata

Creasey

Kadoki

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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“…A similar result has also been reported where Mn markedly increased the production of inflammatory cytokines and chemokines in human monocyte-derived macrophages [18]. However, Choi and colleagues reported that a diet with adequate Mn notably depressed the expression of inflammatory cytokines TNF-α, IL-6, IL-1β, and IL-10 when compared to the Mn-deficient diet in colon mucosa of DSS-treated mice [42]. Excess Mn exposure was also reported to inhibit or induce the expression of genes of proinflammatory cytokines in chickens [19,41], indicating that dietary Mn modifies inflammatory cytokines in a dose-dependent manner and/or is dependent on the experimental model.…”

Section: Discussionsupporting

confidence: 75%

“…These results are congruent with previous outcomes in mice and indicate that Mn is necessary for proper maintenance of the intestinal barrier. For example, Mn provided protection against dextran sulfate sodium (DSS)-induced colon injury [42]. It was postulated that the positive effect of Mn on the intestinal barrier was mediated by MnSOD [23], which is in agreement with the efficacious protection of the small intestine from ionizing radiation damage through overexpression of MnSOD in mice [43].…”

Section: Discussionmentioning

confidence: 80%

Impact of Dietary Manganese on Intestinal Barrier and Inflammatory Response in Broilers Challenged with Salmonella Typhimurium

et al. 2020

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Growing concern for public health and food safety has prompted a special interest in developing nutritional strategies for removing waterborne and foodborne pathogens, including Salmonella. Strong links between manganese (Mn) and intestinal barrier or immune function hint that dietary Mn supplementation is likely to be a promising approach to limit the loads of pathogens in broilers. Here, we provide evidence that Salmonella Typhimurium (S. Typhimurium, 4 × 108 CFUs) challenge-induced intestinal injury along with systemic Mn redistribution in broilers. Further examining of the effect of dietary Mn treatments (a basal diet plus additional 0, 40, or 100 mg Mn/kg for corresponding to Mn-deficient, control, or Mn-surfeit diet, respectively) on intestinal barrier and inflammation status of broilers infected with S. Typhimurium revealed that birds fed the control and Mn-surfeit diets exhibited improved intestinal tight junctions and microbiota composition. Even without Salmonella infection, dietary Mn deficiency alone increased intestinal permeability by impairing intestinal tight junctions. In addition, when fed the control and Mn-surfeit diets, birds showed decreased Salmonella burdens in cecal content and spleen, with a concomitant increase in inflammatory cytokine levels in spleen. Furthermore, the dietary Mn-supplementation-mediated induction of cytokine production was probably associated with the nuclear factor kappa-B (NF-κB)/hydrogen peroxide (H2O2) pathway, as judged by the enhanced manganese superoxide dismutase activity and the increased H2O2 level in mitochondria, together with the increased mRNA level of NF-κB in spleen. Ingenuity-pathway analysis indicated that acute-phase response pathways, T helper type 1 pathway, and dendritic cell maturation were significantly activated by the dietary Mn supplementation. Our data suggest that dietary Mn supplementation could enhance intestinal barrier and splenic inflammatory response to fight against Salmonella infection in broilers.

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“…Both the heterozygous and homozygous Zip8 393T-KI male mice exhibited a more severe phenotype than WT mice. We note a recent report of enhanced susceptibility to DSS-induced injury in mice fed Mn-deficient chow ( 45 ). We acknowledge that our experiments do not directly test that abnormal Mn homeostasis specifically drives the colitis phenotype, and future experiments will test variable Mn dietary content.…”

Section: Discussionmentioning

confidence: 73%

Pleiotropic ZIP8 A391T implicates abnormal manganese homeostasis in complex human disease

et al. 2020

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ZIP8 is a metal transporter with a role in manganese (Mn) homeostasis. A common genetic variant in ZIP8 (rs13107325; A391T) ranks in the top 10 of pleiotropic SNPs identified in GWAS; A391T has associations with an increased risk of schizophrenia, obesity, Crohn’s disease, and reduced blood Mn. Here, we used CRISPR/ Cas9 -mediated knockin (KI) to generate a mouse model of ZIP8 A391T (Zip8 393T-KI mice). Recapitulating the SNP association with blood Mn, blood Mn was reduced in Zip8 393T-KI mice. There was restricted abnormal tissue Mn homeostasis, with decreases in liver and kidney Mn and a reciprocal increase in biliary Mn, providing in vivo evidence of hypomorphic Zip8 function. Upon challenge in a chemically induced colitis model, male Zip8 393T-KI mice exhibited enhanced disease susceptibility. ZIP8 391-Thr associated with reduced triantennary plasma N-glycan species in a population-based cohort to define a genotype-specific glycophenotype hypothesized to be linked to Mn-dependent glycosyltransferase activity. This glycophenotype was maintained in a cohort of patients with Crohn’s disease. These data and the pleiotropic disease associations with ZIP8 391-Thr suggest underappreciated roles of Mn homeostasis in complex human disease.

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Impact of dietary manganese on experimental colitis in mice

Cited by 40 publications

References 49 publications

A missense variant in SLC39A8 confers risk for Crohn’s disease by disrupting manganese homeostasis and intestinal barrier integrity

A missense variant in SLC39A8 confers risk for Crohn’s disease by disrupting manganese homeostasis and intestinal barrier integrity

Impact of Dietary Manganese on Intestinal Barrier and Inflammatory Response in Broilers Challenged with Salmonella Typhimurium

Pleiotropic ZIP8 A391T implicates abnormal manganese homeostasis in complex human disease

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